DE19910894A1 - Container with a dispensing valve for liquids under pressure comprises are rigid pipe which is located inside the container and is joined to a flexible hose capable of turning through half a revolution - Google Patents

Abstract

The container (1) with a dispensing valve (2) for liquids under pressure comprises a rigid pipe (3) which is located inside the container and extends into the middle third of the container. At the end opposite to the dispensing valve the pipe (3) is joined to a flexible hose (4). The flexibility of this hose allows it to turn through 180 inside the container.

Description

The invention relates to a container for a pressurized liquid a sampling valve and a flexible one that projects into the interior of the container Sampling line.

Bottles with gases liquefied under pressure are used to remove the liquid a riser or dip tube, which is connected to the sampling valve and extends to near the bottom of the bottle. The riser pipe consists of usually made of a rigid or less flexible material, such as copper or Plastic. For the removal of liquid, the removal valve is opened, whereby the Liquid due to the pressure inside the bottle Riser pipe is pressed and can be used for the respective purpose.

However, these bottles have the disadvantage that the liquid is only removed when a certain bottle orientation is possible. For example, the bottle is standing on the head, the free end of the riser is no longer in liquid but in a gas atmosphere. When you open the sampling valve, therefore, only the pressure inside the bottle is reduced, but no liquid can be removed.

From the German utility model DE-U-296 04 650 is a fuel container for Model flying objects known. In one of the side walls of the fuel tank among other things, the sampling line arranged as flexible in the interior of the Container projecting line is formed. The sampling line depends on Flight situation so that its free end remains below the liquid level. The dependence of the liquid withdrawal on the orientation of the container becomes in this embodiment, compared to the known bottles with rigid risers significantly improved, but problems arise when the container is in a such position that the wall through which the sampling line leads is below. In In this case, the flexible sampling line must bend by 180 ° so that it is free Immerse the end in the liquid. This easily leads to knotting or  a kink in the line, causing fluid flow through the sampling line is interrupted.

The object of the present invention is therefore a container of the type mentioned Kind of develop in which the fluid withdrawal is completely independent of the location and inclination of the container is possible.

This object is achieved in that a inside the container rigid tube is provided, which is connected to the sampling valve and itself extends to the middle third of the container height, the container height of Distance of the sampling valve from the container wall opposite this, that the end of the rigid tube opposite the sampling valve with the flexible sampling line is connected, and that the sampling line is such Flexibility has that it can bend 180 ° inside the container.

The extraction line is not flexible over its entire length according to the invention executed, but starting from the sampling valve to the middle of the container initially realized in the form of a rigid tube. The rigid pipe is included flexible pipe section. The length of the flexible sampling line is thereby increased reduced by about half, which eliminates knots in the flexible cable may occur. The flexible sampling line is made of one material, which is so flexible that the line is inside the container can bend by 180 °. In this way, every point inside the container is with the flexible line available.

A rigid pipe is understood to be a pipe which, when the position of the Essentially maintains its position within the container, i.e. H. whose rigidity is so great that the pipe under the influence of its Does not bend weight force or only slightly.

The rigid tube preferably extends from the removal valve into one Range between 40 and 60 percent, particularly preferably between 45 and 55 Percent of the container height.  

A silicone hose is preferably used as a flexible sampling line, because this material ideally meets the flexibility required according to the invention with a high durability combines.

At the end of the flexible sampling line, it is advantageous to use a weight or a Float attached. Due to the additional weight, the orientation of the Sampling line improved so that the free end of the sampling line is also at rapid changes of position, rotations or tilts of the container always below of the liquid level.

It has been shown that the radius of curvature of the flexible flexible Sampling line is the lowest immediately after attachment to the rigid pipe is. The extraction line is most likely to kink at this point. Of It is therefore an advantage at the end of the rigid tube at which the flexible Sampling line is attached, a bead-like or on the outside of the tube provide toroidal distribution. In this way, even if the Container upside down, d. H. that the bleed valve is at the bottom, the rigid pipe is directed vertically upwards and the flexible sampling line from End of the rigid tube hanging down, kinking the sampling line prevented. The sampling line is replaced with a larger one Radius of curvature around the bead or thickening, so that the liquid flow is not affected by the line.

Also others on the opposite end region of the extraction valve Rigid pipe means to prevent the flexible from kinking Sampling line have proven to be cheap. So it is an advantage if the Wall of the rigid pipe at the pipe end over its entire circumference to the outside is turned. It is just as cheap to have a flange-like widening at the end of the pipe to provide. Other collar-like widenings of the pipe end also have the same positive effect.

It has also proven to be advantageous to have an additional filling opening in the Provide containers so that the liquid does not pass through the dispensing valve that is rigid Pipe and the flexible pipe must be filled.

The invention and further details of the invention are described below of the embodiment illustrated in the drawings.

Here shows:

Fig. 1, the container according to the invention in the standing position and

Fig. 2, the container according to the invention upside down.

Fig. 1 shows a container 1 according to the invention for liquefied carbon dioxide under pressure. 7 The container 1 has in one of its side walls a removal valve 2 , to which a rigid tube 3 made of copper is attached, which projects into the middle of the container 1 . A silicone tube 4 is connected to the rigid tube 3 , and a mass piece 6 is attached to the end remote from the tube 3 . Immediately next to the junction of the tube 3 and the silicone tube 4 , a toroidal collar 5 is attached to the outside of the tube 3 .

In the position of the container shown in FIG. 1, the liquid 7 is located in the end of the container 1 facing away from the removal valve 2 . The silicone tube 4 is pulled by its own weight and due to the weight of the mass body 6 downward, so that the opening of the tube 4 is located below the liquid level. To remove the liquid carbon dioxide 7 , the sampling valve 2 is opened, whereby liquid carbon dioxide is pressed through the sampling line 4 , 3 due to the pressure prevailing in the gas space 8 .

If the container 1 , as can be seen in FIG. 2, is turned upside down, the liquid carbon dioxide 7 is located at the end of the container 1 facing the extraction valve 2 . Due to the force of gravity, the hose 4 is now bent in the direction of the removal valve 2 , so that the opening of the hose 4 is in turn below the liquid level 7 . The toroidal collar 5 effectively prevents the hose 4 from kinking at the transition between the tube 3 and the hose 4 . The hose 4 lies in a gentle curve around the collar 5 , so that the flow through the hose 4 is not hindered when liquid carbon dioxide is removed.

Claims (8)

1. Container for a pressurized liquid with a sampling valve and a projecting into the container interior, flexible sampling line, characterized in that a rigid tube ( 3 ) is provided in the container interior, which is connected to the sampling valve ( 2 ) and up in extends the middle third of the container height, the container height being the distance of the removal valve ( 2 ) from the container wall opposite this, that the end of the rigid tube ( 3 ) opposite the extraction valve ( 2 ) is connected to the flexible extraction line ( 4 ), and that the flexible extraction line ( 4 ) has such flexibility that it can bend 180 ° within the container ( 1 ). 2. Container according to claim 1, characterized in that the rigid tube ( 3 ) extends into a range between 40 and 60%, preferably between 45 and 55% of the container height. 3. Container according to one of claims 1 or 2, characterized in that a silicone hose is provided as a flexible removal line ( 4 ). 4. Container according to one of claims 1 to 3, characterized in that a weight piece ( 6 ) or a float is provided at the end of the flexible removal line ( 4 ). 5. Container according to one of claims 1 to 4, characterized in that the removal valve ( 2 ) opposite the end region of the rigid tube ( 3 ) has means ( 5 ) for preventing the flexible extraction line ( 4 ) from kinking. 6. Container according to claim 5, characterized in that the removal valve ( 2 ) opposite end of the rigid tube ( 3 ) has on its outside a bead-like widening ( 5 ). 7. Container according to one of claims 1 to 6, characterized in that a filling opening different from the removal line is provided for filling the container ( 1 ) with the liquid. 8. Use of a container according to one of claims 1 to 7 for storage a liquefied gas, especially carbon dioxide.